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Inundation Modeling and Bottleneck Identification of Pipe–River Systems in a Highly Urbanized Area

Author

Listed:
  • Jie Chen

    (Eco-Environment and Resource Efficiency Research Laboratory, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055, China
    Power China Eco-Environmental Group Co., Ltd., Shenzhen 518101, China)

  • Fangze Shang

    (Power China Eco-Environmental Group Co., Ltd., Shenzhen 518101, China)

  • Hao Fu

    (Power China Eco-Environmental Group Co., Ltd., Shenzhen 518101, China)

  • Yange Yu

    (Power China Eco-Environmental Group Co., Ltd., Shenzhen 518101, China)

  • Hantao Wang

    (Power China Eco-Environmental Group Co., Ltd., Shenzhen 518101, China)

  • Huapeng Qin

    (Eco-Environment and Resource Efficiency Research Laboratory, School of Environment and Energy, Peking University Shenzhen Graduate School, Shenzhen 518055, China)

  • Yang Ping

    (Power China Eco-Environmental Group Co., Ltd., Shenzhen 518101, China)

Abstract

The compound effects of extreme climate change and intensive urban development have led to more frequent urban inundation, highlighting the urgent need for the fine-scale evaluation of stormwater drainage system performance in high-density urban built-up areas. A typical basin, located in Shenzhen, was selected, and a pipe–river coupled SWMM was developed and calibrated via a genetic algorithm to simulate the storm drainage system. Design storm scenario analyses revealed that regional inundation occurred in the central area of the basin and the enclosed culvert sections of the midstream river, even under a 0.5-year recurrence period, while the downstream open river channels maintained a substantial drainage capacity under a 200-year rainfall event. To systematically identify bottleneck zones, two novel metrics, namely, the node cumulative inundation volume and the conduit cumulative inundation length, were proposed to quantify the local inundation severity and spatial interactions across the drainage network. Two critical bottleneck zones were selected, and strategic improvement via the cross-sectional expansion of pipes and river culverts significantly enhanced the drainage efficiency. This study provides a practical case study and transferable technical framework for integrating hydraulic modeling, spatial analytics, and targeted infrastructure upgrades to enhance the resilience of drainage systems in high-density urban environments, offering an actionable framework for sustainable urban stormwater drainage system management.

Suggested Citation

  • Jie Chen & Fangze Shang & Hao Fu & Yange Yu & Hantao Wang & Huapeng Qin & Yang Ping, 2025. "Inundation Modeling and Bottleneck Identification of Pipe–River Systems in a Highly Urbanized Area," Sustainability, MDPI, vol. 17(15), pages 1-20, August.
  • Handle: RePEc:gam:jsusta:v:17:y:2025:i:15:p:7065-:d:1717274
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    References listed on IDEAS

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    1. Otto Spijkers, 2018. "Intergenerational Equity and the Sustainable Development Goals," Sustainability, MDPI, vol. 10(11), pages 1-12, October.
    2. Kehan Liu & Jiake Li & Jiayu Gao & Xiaoqing Chi & Chunbo Jiang, 2025. "Study on SWMM Calibration and Optimizing the Layout of LID Based on Intellgent Algorithm: A Case in Campus," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 39(10), pages 5025-5039, August.
    3. Seon Woo Kim & Soon Ho Kwon & Donghwi Jung, 2022. "Development of a Multiobjective Automatic Parameter-Calibration Framework for Urban Drainage Systems," Sustainability, MDPI, vol. 14(14), pages 1-16, July.
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